CN117282873A - Laminated forming assembly of binding type set combined die and forming method thereof - Google Patents

Abstract

The invention relates to the technical field of spherical end socket molds and discloses a stacking forming assembly of a binding type sleeved combined mold, which comprises a base, wherein the base is used as the bottom end part of integral equipment and used for bearing and installing each treatment mechanism in the end socket processing process, jacking oil cylinders are arranged at the periphery of the middle part of the top end of the base, and the top ends of rod bodies of the jacking oil cylinders are rotatably connected with rotating jacking brackets. Through the processing setting of carousel formula multistation integration, not only save the transportation time of head product between the different processing steps of hot pressing course of working to improved the machining efficiency of head product hot pressing machine-shaping, the incident that this kind of multistation's processing mode still can avoid hot pressing head product to take place in the transportation course, processing security is high, and this kind of setting also can avoid the hot pressing head product to bump and mechanical damage such as fish tail in hoist and mount transportation in-process simultaneously, is favorable to guaranteeing the integrality that the head product was processed out.

Description

Laminated forming assembly of binding type set combined die and forming method thereof

Technical Field

The invention relates to the technical field of spherical end socket molds, in particular to a stacked molding assembly of a binding type sleeved combined mold and a molding method thereof.

Background

The closure head is an element for closing the end of the container to isolate the internal and external media, and is also called an end cover. The closure head of a cylindrical container is typically a swivel housing. The shape of the surface of the sealing head can be divided into a convex shape, a conical shape, a flat shape and a combined shape. The convex end socket refers to an end socket with a convex outer surface, such as a hemispherical, elliptic, dished and flanging-free spherical end socket. The gas cylinder adopts the convex inward combined bottom head, so that the strength can be ensured, and the requirement of safe use can be met.

In the processing process of the seal head, the process is generally divided into a plurality of processing steps such as steel plate feeding, pressing shaping, edge polishing, quenching shaping, acid cleaning processing, surface inspection and the like, and after the hot-pressing seal head product is detected to be abnormal, the hot-pressing seal head product is transferred to a subsequent storage position or a surface treatment workshop through transfer equipment such as a forklift for subsequent processing, but in the front end processing step of the seal head product, the processed product is transferred to a next processing position for subsequent processing through the transfer equipment such as the forklift for subsequent processing after each step is processed, and a great amount of transfer equipment is required for the frequent transfer among different processing positions, and a great amount of manpower is required for assisting in the transfer process, so that a stacked molding assembly of a wrapped-type combined die and a molding method thereof are provided by a person skilled in the art to solve the technical problems.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a stacking forming assembly of a binding type sleeving combined die and a forming method thereof, which solve the problem that when an end socket is processed, frequent transfer among different processing positions is needed, a large amount of transfer equipment is needed to be input, and meanwhile, the labor intensity of staff is high.

In order to achieve the above purpose, the invention is realized by the following technical scheme: a stack forming assembly for a wrapped package insert mold, comprising:

the base is used as the bottom end part of the whole equipment and is used for bearing and installing each treatment mechanism in the end socket processing process, jacking oil cylinders are arranged at the periphery of the middle part of the top end of the base, and the top ends of rod bodies of the jacking oil cylinders are rotationally connected with rotating top brackets;

the rotary seat is arranged at the upper part of the base, and four second processing stations are equidistantly arranged on the rotary seat and used for driving the end socket products subjected to hot press molding to rotate to different processing mechanisms for subsequent processing;

the top seat is arranged at the upper part of the rotating seat, and four first processing stations are equidistantly arranged on the top seat and are used for installing and bearing each processing mechanism;

the main driving mechanism is arranged at the top end of the base and is used for driving the rotating seat and the end socket product in the second processing station to move to a subsequent processing position during end socket processing;

the auxiliary driving mechanism is arranged at one side of the bottom of each second processing station on the rotating seat and is used for driving the end socket product to rotate in the process of other processing steps;

the hot-press forming mechanism is arranged at a first processing position on the top seat and is used for carrying out hot-press processing treatment on the heated steel plate material so as to form a rudiment of the end socket product;

the edging treatment mechanism is arranged at a position of a second processing position on the top seat and is used for edging the top edge of the end socket product embryonic form formed by hot-pressing processing;

the cooling and pickling mechanism is arranged at a position of a third processing position on the top seat and is used for cooling the end socket product after edge trimming and pickling the end socket product after cooling;

the flaw detection ejection mechanism is arranged at a position of a fourth processing position on the top seat and is used for carrying out final flaw detection on the end socket product after cooling and pickling treatment and ejecting the end socket product after flaw detection has no abnormal condition.

Preferably, the main driving mechanism comprises a supporting column, the bottom fixed connection of supporting column is in the top middle part of base, the top of base runs through and rotates the seat and fixed connection is in the bottom middle part of footstock, the upper portion rotates in the outer wall of supporting column and is connected with the rotation cover, the top fixed connection of rotation cover is in the bottom middle part of rotating the seat, the lower part is provided with gear one in the outer wall of rotation cover, the top middle part one side fixedly connected with main gear motor of base, fixedly connected with gear three on the output of main gear motor, and gear three is connected with gear one meshing.

Preferably, the auxiliary driving mechanism comprises a rotating ring seat, the lower part in the inner side of the second processing position is rotationally connected with the rotating ring seat, the middle part of the bottom end of the rotating ring seat is equally and fixedly connected with a plurality of tooth blocks, four mounting seats are equally and uniformly arranged at the periphery of the bottom end of the rotating seat, auxiliary speed reducing motors are arranged at the bottom ends of the mounting seats, gears II are arranged at the output ends of the auxiliary speed reducing motors, and the gears II are respectively meshed with the tooth blocks at corresponding positions.

Preferably, the hot press forming mechanism comprises an outer mold shell, the outer mold shell is arranged at the lower part of the first processing station II, the bottom end of the outer mold shell is fixedly connected to the middle part of the top end of the corresponding rotating top bracket, the bottom end of the rotating top bracket is rotationally connected to the top end position of the rod body of the corresponding jacking cylinder, and the bottom end of the jacking cylinder is fixedly connected to the corresponding position of the bottom end of the base.

Preferably, the edging processing mechanism comprises a cutter rest, the second the lower part is provided with the cutter rest in one side of the processing position inner wall, the middle part of cutter rest is provided with the cutter, be provided with the air collecting box on one side of the middle part on footstock top, the both sides equidistance of air collecting box is provided with a plurality of air outlets, all be provided with the guide board on the air outlet, the lower part is provided with the fan in one side that the air collecting box is close to footstock outward flange department, the air exit of fan passes through the inside intercommunication of connecting pipe and air collecting box.

Preferably, the cooling pickling mechanism comprises a plurality of installation bars, the third the top edge equidistance fixedly connected with a plurality of installation bars of processing position one, the middle part upside of installation bar all is provided with the stock solution ring seat, and the upper end the inner wall middle part equidistance of stock solution ring seat is provided with a plurality of acidizing fluid shower heads, the lower extreme the inner wall middle part equidistance of stock solution ring seat is provided with the liquid nitrogen shower head, the top middle part of footstock solution is provided with the liquid nitrogen bin, the top of liquid nitrogen bin is provided with the acidizing fluid bin, one side middle part of liquid nitrogen bin and acidizing fluid bin all is provided with the infusion pump, just the inlet of infusion pump respectively with the inside intercommunication of liquid nitrogen bin and acidizing fluid bin, the liquid outlet of infusion pump is respectively through the inside intercommunication of transfer line and the stock solution ring seat of corresponding position.

Preferably, the flaw detection ejection mechanism comprises a movable groove, the movable groove is arranged on one side of the middle of the top seat, two electric sliding rails are slidably connected on two sides of the inner part of the movable groove, a connecting rod is fixedly connected in the middle of the top end of each electric sliding rail, an ultrasonic detector is arranged on one end, far away from the electric sliding rail, of each connecting rod, and a ray detector is arranged on one end, far away from the electric sliding rail, of each connecting rod.

Preferably, a molding method of a stack molding assembly of a binding type set mold assembly comprises the following processing molding steps:

s1: heating a steel plate material, then placing the steel plate material at a first processing position of a top seat, starting a hot press forming mechanism to form a closed lower die, and then performing hot press treatment on the steel plate material at a second processing position of a rotating seat to form an end socket embryonic product through the cooperation of a large hydraulic press and an upper die seat;

s2: after the end socket embryonic products are molded, the main driving mechanism is started to drive the end socket embryonic products which are hot-pressed and molded on the rotating seat to rotate to a position of a second processing station of the top seat, and then the end socket embryonic products are subjected to edging leveling treatment through the matched use of the auxiliary driving mechanism and the edging processing mechanism;

s3: after the end socket embryonic product is subjected to edging and leveling treatment, the main driving mechanism is started again to drive the end socket embryonic product subjected to edging and leveling treatment on the rotating seat to rotate to a position of a third processing station of the top seat, and then the end socket embryonic product subjected to edging and leveling is subjected to cooling and pickling treatment through the cooperation of the auxiliary driving mechanism and the cooling and pickling mechanism;

s4: after the cooling and pickling treatment of the end socket embryonic products, the main driving mechanism is started again to drive the end socket embryonic products cooled and pickled on the rotating seat to rotate to a position of a fourth processing station of the top seat, then the end socket embryonic products cooled and pickled are subjected to flaw detection through the matching use of the auxiliary driving mechanism and the flaw detection ejection mechanism, the end socket embryonic products are ejected after the flaw detection is abnormal, and finally the end socket embryonic products are transported to a designated position through the transporting equipment, so that the subsequent treatment operation of the end socket products can be carried out.

Working principle: when a large-scale end socket product is processed, a worker firstly places a heated steel plate at a first processing position of a top seat through transfer equipment, a hot press forming mechanism is started at the moment, a jacking oil cylinder rod body at the bottom of the first processing position drives a rotating top bracket on the steel plate to ascend, the rotating top bracket drives an outer shell on the jacking oil cylinder rod body to synchronously move while ascending, the outer shell on the rotating top bracket is stopped to ascend when the outer shell on the rotating top bracket is moved to be in contact with the inner wall of a rotating ring seat in a second processing position, so as to form a closed lower die, then a large-scale hydraulic press at the side drives an upper die on the upper die to move downwards, so that a heated steel plate material on the top seat is pressed into the second processing position of the rotating seat and matched with the outer shell at the bottom of the first processing position, the steel plate material is processed into a embryonic form of the end socket product, after the end socket product is subjected to hot press forming, the jacking oil cylinder rod body at the bottom of the first processing position drives the rotating top bracket to reset, and simultaneously drives the reset upper rotating top bracket to synchronously move the upper rotating top bracket to be contacted with the inner wall of the rotating ring seat, and then the end socket is separated from the outer shell after the end socket is subjected to hot press forming; after the hot press forming mechanism carries out hot press forming on the steel plate material, the main driving mechanism is started, the rotating shaft of the main speed reducing motor drives the gear III on the main speed reducing motor to rotate, the gear III drives the gear I to rotate simultaneously, the gear I drives the rotating seat at the top of the main speed reducing motor to synchronously rotate while rotating, the rotating seat drives the end socket product embryonic form which is formed by hot press forming in the first processing position II to the first processing position I of the top box, the jacking cylinder rod at the corresponding position at the bottom of the main speed reducing motor drives the rotating top bracket on the main speed reducing motor to lift the bottom of the end socket embryonic form, the auxiliary driving mechanism is started after the jacking is fixed, the auxiliary speed reducing motor on the rotating seat bottom corresponding position mounting seat is started, the rotating shaft of the auxiliary speed reducing motor drives the gear II on the auxiliary speed reducing motor to synchronously rotate while rotating, the gear II on the rotating rotates and drives the toothed blocks at the bottom of the ring seat to move, the toothed blocks on the bottom of the auxiliary speed reducing motor, the toothed blocks on the rotating seat drive the ring seat to synchronously move to the second processing position II corresponding to the top of the top box, the end socket is simultaneously, the end socket body is arranged at the second processing position II corresponding to the top of the top box, the top of the top box is simultaneously, the top of the top box is supplied with air, the end carrier is simultaneously and the end carrier is simultaneously at the end-turned inside the end carrier is simultaneously, and the end-turned on the top of the end carrier is integrally, and air is simultaneously arranged at the top of the end-finished, the air in the fan is discharged through the air outlet and guided by the guide plate to shunt the wind power to the positions of the hot press forming mechanism and the edging processing mechanism, scrap iron generated in the cutting process of the cutter is blown out during edging processing, the scrap iron is prevented from entering the inside of the end socket product, so that the salient points and scraping flaws on the inner wall of the end socket product caused by high-temperature melting of the scrap iron are prevented, after edging processing is carried out on the end socket product embryonic form, the main driving mechanism drives the end socket product embryonic form to rotate to the position of the first processing position of the top seat again, the cooling and pickling mechanism is started, the preparation work is carried out first, the jacking cylinder rod body at the position of the first processing position drives the rotating top seat to ascend, so that the bottom of the end socket product is supported in a jacking mode through the rotating top seat, then the auxiliary driving mechanism is started, the head embryonic product in the second processing position at the corresponding position is driven to rotate under the jacking of the rotating top bracket, the preparation work is completed, the formal cooling and pickling treatment is started, when the cooling and pickling treatment is carried out, firstly, the liquid nitrogen in the liquid nitrogen storage box is pumped by the liquid delivery pump on the liquid nitrogen storage box and is delivered into the liquid storage ring seat at the lower part through the liquid delivery pipe, then the liquid nitrogen is sprayed out through the liquid nitrogen spray head on the liquid storage ring seat, and the liquid nitrogen sprayed out by the liquid nitrogen spray head can uniformly cover the surface of the head embryonic product along with the driving of the auxiliary driving mechanism, so that the cooling treatment of the head embryonic product is completed, then the pickling liquid in the head embryonic product is delivered into the liquid storage ring seat at the upper part through the liquid delivery pipe by the liquid delivery pump on the liquid storage box, then the liquid acid liquid spray head in the liquid storage ring seat at the upper part is sprayed out along with the driving of the auxiliary driving mechanism, the pickling solution sprayed by the acid solution spray header can uniformly cover the surface of the end socket embryonic product, so that the pickling treatment of the end socket embryonic product is completed; after the acid washing treatment of the end socket embryonic product is finished, the jacking oil cylinder at the bottom position of the third processing position drives the rotary jacking seat on the third processing position to reset, after the rotary jacking seat is reset, the main driving mechanism drives the rotary jacking seat to rotate to the first position of the fourth processing position of the jacking seat again, the flaw detection ejection mechanism is started, firstly, the left electric sliding rail slides in the moving groove to move to the middle position, then the ultrasonic flaw detection treatment is carried out on the end socket product at the first position of the fourth processing position through the ultrasonic detector on the connecting rod, after the flaw detection is finished, the left electric sliding rail drives the electric sliding rail to reset in the moving groove, then the right electric sliding rail drives the connecting rod and the radiographic detector to move to the middle position in the moving groove, the radiographic detector on the radiographic detector carries out radiographic inspection treatment on the end socket product at the first position of the fourth processing position, after the double flaw detection is free of anomaly, the jacking oil cylinder rod body at the bottom of the fourth processing position drives the rotary jacking seat on the fourth processing position, then the product in the moving up to move through the rotating jacking seat, and finally, the product in the rotating jacking seat is ejected to a specified place through a forklift and the like.

The invention provides a stack molding assembly of a binding type set combined mold and a molding method thereof. The beneficial effects are as follows:

according to the invention, through the rotary disc type multi-station integrated processing arrangement, the transfer time of the end socket product in different processing steps in the hot pressing processing process is saved, so that the processing efficiency of hot pressing processing molding of the end socket product is improved, the multi-station processing mode can also avoid safety accidents in the transfer process of the hot pressing end socket product, the processing safety is high, and meanwhile, the arrangement can also avoid mechanical damages such as collision and scratch in the hoisting and transferring process of the hot pressing end socket product, thereby being beneficial to ensuring the processed integrity of the end socket product.

According to the rotary table type multi-station integrated processing device, the labor intensity of workers can be reduced on one hand, so that the accurate operation of end socket products is not required to be frequently assisted, and on the other hand, the cost input of a processing mechanism to transfer equipment can be reduced, so that the processing cost of the whole end socket products is reduced.

When the end socket product is processed, the processing line for processing the end socket product can be formed by synchronously processing the end socket product at a plurality of stations, so that the processing and forming efficiency of the end socket product is improved.

When the end socket embryonic product after hot press molding is subjected to edging treatment, broken iron scraps generated in the edging treatment process can be timely blown out of equipment through the adjustable blowing arrangement, so that mechanical damages such as protruding points or scraping and the like caused by the fact that the iron scraps enter or adhere to the inner wall of the end socket product can be prevented, and the final molding state of the end socket product is ensured.

Drawings

FIG. 1 is a schematic view of the front side structure of the present invention;

FIG. 2 is an enlarged schematic view of the structure A of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the rear side structure of the present invention;

FIG. 4 is a schematic elevational view of the present invention;

FIG. 5 is a schematic top view of the present invention;

fig. 6 is a schematic view of a partial structure of a rotary ring seat according to the present invention.

1, a base; 2. an ultrasonic detector; 3. an electric slide rail; 4. a top base; 5. a mounting rod; 6. a liquid nitrogen spray header; 7. a liquid storage ring seat; 8. an acid liquor spray header; 9. processing a first station; 10. an acid liquid storage tank; 11. a wind collecting box; 12. an air outlet; 13. a guide plate; 14. a liquid nitrogen storage tank; 15. a connecting rod; 16. a radiation detector; 17. a second processing station; 18. rotating the top bracket; 19. jacking the oil cylinder; 20. an infusion pump; 21. an infusion tube; 22. a rotating seat; 23. a blower; 24. a cutter; 25. a tool holder; 26. a support column; 27. a first gear; 28. a rotating sleeve; 29. tooth blocks; 30. a rotary ring seat; 31. a mounting base; 32. a sub-reduction motor; 33. a second gear; 34. a third gear; 35. a main gear motor; 36. an outer mold shell; 37. and a moving groove.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-6, an embodiment of the present invention provides a stack forming assembly of a packing set mold, including:

the base 1 is used as the bottom end part of the whole equipment and is used for bearing and installing each treatment mechanism in the end socket processing process, the periphery of the middle part of the top end of the base is provided with a jacking cylinder 19, and the top end of a rod body of the jacking cylinder 19 is rotationally connected with a rotary top bracket 18;

the rotating seat 22 is arranged at the upper part of the base 1, and is provided with four second processing stations 17 at equal intervals, and is used for driving the end socket products after hot press molding to rotate to different processing mechanisms for subsequent processing;

the top seat 4 is arranged at the upper part of the rotating seat 22, and four processing stations 9 are equidistantly arranged on the top seat and are used for installing and bearing various processing mechanisms;

the hot-press forming mechanism is arranged at the first 9 positions of the first processing positions on the top seat 4 and is used for carrying out hot-press processing on the heated steel plate material so as to form a rudiment of the end socket product;

the hot press forming mechanism comprises an outer die shell 36, wherein the outer die shell 36 is arranged at the lower part of the first processing station II 17, the bottom end of the outer die shell 36 is fixedly connected to the middle part of the top end of the corresponding rotating top bracket 18, the bottom end of the rotating top bracket 18 is rotatably connected to the top end position of the rod body corresponding to the jacking cylinder 19, and the bottom end of the jacking cylinder 19 is fixedly connected to the corresponding position of the bottom end of the base 1.

When the hot press forming mechanism is started, the rod body of the jacking cylinder 19 at the bottom of the first processing position I9 drives the rotary top bracket 18 on the rod body to ascend, the rotary top bracket 18 drives the outer die shell 36 on the rotary top bracket 18 to synchronously move while ascending, the outer die shell 36 on the rotary top bracket 18 stops ascending when being displaced to be in contact with the inner wall of the rotary ring seat 30 in the second processing position II 17, so as to form a closed lower die, and then the large hydraulic press at the side drives the upper die on the lower die to move downwards, so that the heated steel plate material on the top seat 4 is pressed into the second processing position II 17 of the rotary seat 22 and matched with the outer die shell 36 at the bottom of the rotary top bracket, thereby hot press forming the steel plate material into a embryonic form of a seal head product, and the hot press forming processing of the steel plate material is completed.

After the end socket product is hot-pressed and formed, the rod body of the jacking cylinder 19 at the bottom of the first processing position II 17 drives the rotary top bracket 18 on the rod body to reset, and the rotary top bracket 18 on the rod body resets and drives the outer die shell 36 at the top of the rod body to synchronously move downwards, so that the hot-pressed end socket product and the outer die shell 36 are separated, and the subsequent processing treatment of the end socket embryonic product can be performed after the end socket product and the outer die shell are separated.

The main driving mechanism is arranged at the top end of the base 1 and is used for driving the rotary seat 22 and the end socket product in the second processing station 17 to move to a subsequent processing position during end socket processing;

the main driving mechanism comprises a support column 26, the bottom end of the support column 26 is fixedly connected to the middle of the top end of the base 1, the top end of the base 1 penetrates through the rotating seat 22 and is fixedly connected to the middle of the bottom end of the top seat 4, the upper middle part of the outer wall of the support column 26 is rotationally connected with a rotating sleeve 28, the top end of the rotating sleeve 28 is fixedly connected to the middle of the bottom end of the rotating seat 22, a first gear 27 is arranged at the middle lower part of the outer wall of the rotating sleeve 28, a main gear motor 35 is fixedly connected to one side of the middle of the top end of the base 1, a third gear 34 is fixedly connected to the output end of the main gear motor 35, and the third gear 34 is meshed with the first gear 27.

When the main driving mechanism is started, the rotating shaft of the main speed reducing motor 35 drives the gear III 34 on the main speed reducing motor to rotate, the gear III 34 drives the gear I27 to rotate while rotating, the gear I27 drives the rotating sleeve 28 to synchronously rotate on the supporting column 26, the rotating sleeve 28 also drives the rotating seat 22 at the top of the rotating sleeve 28 to synchronously rotate while rotating, the rotating seat 22 drives the end socket product embryonic form which is formed by hot pressing in the first processing position two 17 to move to the second processing position 9 of the top seat 4 while rotating, and the rod body of the jacking cylinder 19 at the corresponding position at the bottom of the end socket embryonic form drives the rotating top bracket 18 on the end socket embryonic form to ascend, so that the bottom of the end socket embryonic form is jacked and fixed by rotating the top bracket 18

The auxiliary driving mechanism is arranged at one side of the bottom of each second processing station 17 on the rotating seat 22 and is used for driving and rotating the end socket product in the process of other processing steps;

the auxiliary driving mechanism comprises a rotating ring seat 30, the middle lower part of the inner side of a second machining position 17 is rotationally connected with the rotating ring seat 30, the middle part of the bottom end of the rotating ring seat 30 is fixedly connected with a plurality of tooth blocks 29 at equal intervals, four mounting seats 31 are arranged at equal intervals on the periphery of the bottom end of the rotating seat 22, an auxiliary speed reduction motor 32 is arranged at the bottom end of the mounting seat 31, a second gear 33 is arranged at the output end of the auxiliary speed reduction motor 32, and the second gear 33 is respectively meshed with the tooth blocks 29 at corresponding positions.

The edging treatment mechanism is arranged at a position 9 of a second processing position on the top seat 4 and is used for edging the top edge of the hot-pressed end socket product embryonic form;

the edging processing mechanism comprises a cutter rest 25, the middle lower part of one side of the inner wall of the second processing position 9 is provided with the cutter rest 25, the middle part of the cutter rest 25 is provided with a cutter 24, one side of the middle part of the top end of the top seat 4 is provided with an air collecting box 11, two sides of the air collecting box 11 are equidistantly provided with a plurality of air outlets 12, guide plates 13 are arranged on the air outlets 12, one middle lower part of one side of the air collecting box 11, which is close to the outer edge of the top seat 4, is provided with a fan 23, and an air outlet of the fan 23 is communicated with the inside of the air collecting box 11 through a connecting pipe.

When the auxiliary driving mechanism is started, an auxiliary speed reduction motor 32 on a mounting seat 31 at the corresponding position of the bottom of the rotating seat 22 is started, a rotating shaft of the auxiliary speed reduction motor 32 drives a gear II 33 on the rotating seat to synchronously rotate while rotating, the gear II 33 drives a tooth block 29 at the bottom of the rotating ring seat 30 to move while rotating, the tooth block 29 synchronously drives the rotating ring seat 30 to rotate in a corresponding processing position II 17, the rotating ring seat 30 drives a seal head embryonic product in the rotating seat to synchronously rotate while rotating, and the edge of the top edge of the seal head embryonic product is subjected to edge trimming and leveling treatment by a cutter 24 on a cutter rest 25 in a second processing position I9 on the top seat 4 while rotating the seal head embryonic product.

Simultaneously, the fan 23 on the air collecting box 11 supplies air to the inside of the air collecting box 11 through the connecting pipe, the air supplied by the fan 23 is discharged through the air outlet 12 after entering the air collecting box 11, the air in the fan 23 is discharged through the air outlet 12 and is guided by the guide plate 13 to shunt the wind force to the positions of the hot press forming mechanism and the edging processing mechanism, and scrap iron generated in the cutting process of the cutter 24 is blown out during edging processing, so that the scrap iron is prevented from entering the inside of the end socket product, and the salient point and the scraping defect of the inner wall of the end socket product caused by high-temperature melting of the scrap iron are prevented.

The cooling and pickling mechanism is arranged at a position 9 of a third processing position on the top seat 4 and is used for cooling the end socket product after edge trimming and pickling the end socket product after cooling;

the cooling and pickling mechanism comprises a plurality of mounting rods 5, a plurality of mounting rods 5 are fixedly connected to the edge of the top end of the first 9 processing position at equal intervals, liquid storage ring seats 7 are arranged on the upper side and the lower side of the middle of the mounting rods 5, a plurality of acid liquid spray heads 8 are arranged on the middle of the inner wall of the upper end liquid storage ring seat 7 at equal intervals, liquid nitrogen spray heads 6 are arranged on the middle of the inner wall of the lower end liquid storage ring seat 7 at equal intervals, a liquid nitrogen storage box 14 is arranged on the middle of the top end of the top seat 4, an acid liquid storage box 10 is arranged on the top end of the liquid nitrogen storage box 14, an infusion pump 20 is arranged on the middle of one side of the liquid nitrogen storage box 14 and the middle of one side of the acid liquid storage box 10, liquid inlets of the infusion pump 20 are respectively communicated with the liquid nitrogen storage box 14 and the inside of the acid liquid storage box 10, and liquid outlets of the infusion pump 20 are respectively communicated with the inside of the liquid storage ring seats 7 at corresponding positions through infusion pipes 21.

When the cooling and pickling mechanism is started, the preparation work is firstly carried out, the rod body of the jacking cylinder 19 at the bottom position of the first 9 of the third processing position drives the rotary jacking seat 18 to ascend, so that the bottom of the end socket embryonic product is jacked and supported through the rotary jacking seat 18, then the auxiliary driving mechanism is started, the end socket embryonic product in the second 17 of the corresponding processing position is driven to rotate under the jacking of the rotary jacking seat 18, and the preparation work is completed.

The cooling and pickling process is started, at the same time, the liquid nitrogen in the liquid nitrogen storage tank 14 is pumped by the liquid pump 20 and is conveyed into the liquid storage ring seat 7 at the lower part through the liquid conveying pipe 21, then the liquid nitrogen is sprayed out through the liquid nitrogen spray head 6 on the liquid storage ring seat 7, and the liquid nitrogen sprayed out by the liquid nitrogen spray head 6 can uniformly cover the surface of the end socket embryonic product along with the driving of the auxiliary driving mechanism, so that the cooling process of the end socket embryonic product is completed, the pickling liquid in the liquid nitrogen storage tank 10 is conveyed into the liquid storage ring seat 7 at the upper part through the liquid conveying pipe 21, then the pickling liquid spray head 8 in the liquid storage ring seat 7 is sprayed out, and along with the driving of the auxiliary driving mechanism, the pickling liquid sprayed out by the acid liquid spray head 8 can uniformly cover the surface of the end socket embryonic product, and the pickling process of the end socket embryonic product is completed.

The flaw detection ejection mechanism is arranged at the position 9 of the fourth processing position on the top seat 4, and is used for carrying out final flaw detection on the end socket product after cooling and pickling treatment and ejecting the end socket product after no abnormal condition exists in flaw detection.

The flaw detection ejection mechanism comprises a movable groove 37, the movable groove 37 is arranged on one side of the middle of the top seat 4, two electric sliding rails 3 are slidably connected to two sides of the inner portion of the movable groove 37, a connecting rod 15 is fixedly connected to the middle of the top end of each electric sliding rail 3, an ultrasonic detector 2 is arranged at one end, far away from each electric sliding rail 3, of each connecting rod 15 on one side, and a ray detector 16 is arranged at one end, far away from each electric sliding rail 3, of each connecting rod 15 on the other side.

When the flaw detection ejection mechanism is started, firstly, the left electric slide rail 3 slides in the moving groove 37 to be moved to the middle position, then the ultrasonic flaw detection treatment is carried out on the end socket product at the first 9 position of the fourth processing position through the ultrasonic detector 2 on the connecting rod 15, after flaw detection is finished, the left electric slide rail 3 drives the electric slide rail 3 to reset in the moving groove 37, then the right electric slide rail 3 drives the connecting rod 15 and the ray detector 16 to move to the middle position in the moving groove 37, the ray detection treatment is carried out on the end socket product at the first 9 position of the fourth processing position through the ray detector 16, after double flaw detection is not abnormal, the jacking cylinder 19 rod body at the bottom of the first 9 position of the fourth processing position drives the rotating top bracket 18 to move upwards, then the end socket product in the fourth processing position is ejected through the rotating top bracket 18, and finally the end socket product is transported to a designated place through a transport device such as a forklift.

A molding method of a laminated molding component of a binding type set combined mold comprises the following processing molding steps:

s1: heating a steel plate material, then placing the steel plate material at a first processing position 9 of the top seat 4, starting a hot press forming mechanism to form a closed lower die, and then performing hot press treatment on the steel plate material at a second processing position 17 of the rotating seat 22 by using a large hydraulic press in cooperation with an upper die seat to form a seal head embryonic product;

s2: after the end socket embryonic products are molded, the main driving mechanism is started to drive the end socket embryonic products which are hot-pressed and molded on the rotating seat 22 to rotate to the position 9 of the second processing position of the top seat 4, and then the end socket embryonic products are subjected to edging and leveling treatment through the cooperation of the auxiliary driving mechanism and the edging treatment mechanism;

s3: after the end socket embryonic product is subjected to edging and leveling treatment, the main drive mechanism is started again to drive the end socket embryonic product subjected to edging and leveling treatment on the rotating seat 22 to rotate to a position 9 of a third machining position of the top seat 4, and then the end socket embryonic product subjected to edging and leveling is subjected to cooling and pickling treatment through the cooperation of the auxiliary drive mechanism and the cooling and pickling mechanism;

s4: after the cooling and pickling treatment of the end socket embryonic product, the main driving mechanism is started again to drive the end socket embryonic product cooled and pickled on the rotating seat 22 to rotate to the position of 9 of the fourth processing position of the top seat 4, then the end socket embryonic product cooled and pickled is subjected to flaw detection through the matching use of the auxiliary driving mechanism and the flaw detection ejection mechanism, ejection is carried out after the flaw detection is free from abnormality, and finally the end socket embryonic product is transported to the designated position through the transporting equipment, so that the subsequent treatment operation of the end socket product can be carried out.

Through the continuous processing mode, the whole equipment can save a large amount of manpower and material resources, avoid damage of processed products in the transferring process and improve the processing and forming effects of the whole seal head.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a stack pressure shaping subassembly of packing type suit assembling die which characterized in that includes:

the base (1) is used as the bottom end part of the whole equipment and is used for bearing and installing each treatment mechanism in the end socket processing process, jacking oil cylinders (19) are arranged at the periphery of the middle part of the top end of the base, and the top ends of rod bodies of the jacking oil cylinders (19) are respectively and rotatably connected with a rotary top bracket (18);

the rotating seat (22) is arranged at the upper part of the base (1), and four processing stations II (17) are equidistantly arranged on the rotating seat and are used for driving the end socket products subjected to hot press molding to rotate to different processing mechanisms for subsequent processing;

the top seat (4) is arranged at the upper part of the rotating seat (22), and four processing stations I (9) are equidistantly arranged on the top seat and are used for installing and bearing each processing mechanism;

the main driving mechanism is arranged at the top end of the base (1) and is used for driving the rotary seat (22) and the end socket product in the second processing station (17) to move to a subsequent processing position during end socket processing;

the auxiliary driving mechanism is arranged at one side of the bottom of each second processing station (17) on the rotating seat (22) and is used for driving the end socket product to rotate in the process of other processing steps;

the hot-press forming mechanism is arranged at the first processing position (9) on the top seat (4) and is used for carrying out hot-press processing on the heated steel plate material to form a rudiment of the end socket product;

the edging treatment mechanism is arranged at the first (9) position of the second processing station on the top seat (4) and is used for edging the top edge of the end socket product embryonic formed by hot pressing;

the cooling and acid washing mechanism is arranged at the first (9) position of the third processing station on the top seat (4) and is used for cooling the end socket product after edge trimming and carrying out acid washing treatment after cooling;

the flaw detection ejection mechanism is arranged at the first (9) position of the fourth processing station on the top seat (4) and is used for carrying out final flaw detection on the end socket product after cooling and pickling treatment and ejecting the end socket product after no abnormal condition exists in flaw detection.

2. The stacking forming assembly of the packing type sleeving combination die according to claim 1, wherein the main driving mechanism comprises a supporting column (26), the bottom end of the supporting column (26) is fixedly connected to the middle of the top end of the base (1), the top end of the base (1) penetrates through the rotating seat (22) and is fixedly connected to the middle of the bottom end of the top seat (4), a rotating sleeve (28) is rotatably connected to the middle upper portion of the outer wall of the supporting column (26), the top end of the rotating sleeve (28) is fixedly connected to the middle of the bottom end of the rotating seat (22), a first gear (27) is arranged at the middle lower portion of the outer wall of the rotating sleeve (28), a main speed reducing motor (35) is fixedly connected to one side of the middle of the top end of the base (1), a third gear (34) is fixedly connected to the output end of the main speed reducing motor (35), and the third gear (34) is meshed with the first gear (27).

3. The stacking and forming assembly of the packing type sleeving combination die according to claim 1, wherein the auxiliary driving mechanism comprises a rotary ring seat (30), the rotary ring seat (30) is rotationally connected to the middle lower portion of the inner side of the second machining position (17), a plurality of tooth blocks (29) are fixedly connected to the middle portion of the bottom end of the rotary ring seat (30) at equal intervals, four mounting seats (31) are uniformly arranged at the periphery of the bottom end of the rotary seat (22), auxiliary speed reducing motors (32) are arranged at the bottom ends of the mounting seats (31), two gears (33) are arranged at the output ends of the auxiliary speed reducing motors (32), and the two gears (33) are respectively meshed with the tooth blocks (29) at corresponding positions.

4. The stacking molding assembly of the packing set assembling die according to claim 1, wherein the hot press molding mechanism comprises an outer die shell (36), the outer die shell (36) is arranged at the lower part of the first machining position II (17), the bottom end of the outer die shell (36) is fixedly connected to the middle part of the top end of the corresponding rotating top bracket (18), the bottom end of the rotating top bracket (18) is rotatably connected to the top end position of a rod body corresponding to the lifting oil cylinder (19), and the bottom end of the lifting oil cylinder (19) is fixedly connected to the corresponding position of the bottom end of the base (1).

5. The folding forming assembly of the packing type set assembling die according to claim 1, wherein the edging processing mechanism comprises a cutter rest (25), the middle lower part of one side of the inner wall of the second machining position I (9) is provided with the cutter rest (25), the middle part of the cutter rest (25) is provided with a cutter (24), the middle part of the top seat (4) is provided with a wind collecting box (11) on one side of the top end, two sides of the wind collecting box (11) are equidistantly provided with a plurality of air outlets (12), guide plates (13) are arranged on the air outlets (12), a fan (23) is arranged at the middle lower part of one side of the wind collecting box (11) close to the outer edge of the top seat (4), and an air outlet of the fan (23) is communicated with the inside of the wind collecting box (11) through a connecting pipe.

6. The stack molding assembly of the packing type sleeving combination mold according to claim 1, wherein the cooling and pickling mechanism comprises a plurality of mounting rods (5), the top edge of the first processing station (9) is fixedly connected with a plurality of mounting rods (5) at equal intervals, liquid storage ring bases (7) are arranged on the upper side and the lower side of the middle of the mounting rods (5), a plurality of acid liquid spray heads (8) are arranged on the upper end of the liquid storage ring bases (7) at equal intervals in the middle of the inner wall, liquid nitrogen spray heads (6) are arranged on the lower end of the liquid storage ring bases (7) at equal intervals in the middle of the inner wall, a liquid nitrogen storage box (14) is arranged in the middle of the top end of the top base (4), an acid liquid storage box (10) is arranged on the top end of the liquid nitrogen storage box (14), an infusion pump (20) is arranged in the middle of one side of the liquid nitrogen storage box (14) and the acid liquid storage box (10), liquid inlets of the infusion pump (20) are respectively communicated with the interiors of the liquid storage box (14) and the acid liquid storage box (10), and liquid inlets of the infusion pump (20) are respectively communicated with the interiors of the liquid storage ring bases (7) through corresponding positions of the liquid storage rings (21).

7. The stacking forming assembly of the packing type sleeving combined die according to claim 1, wherein the flaw detection ejection mechanism comprises a moving groove (37), the moving groove (37) is arranged on one side of the middle of a top seat (4), two electric sliding rails (3) are slidably connected to two sides of the inner portion of the moving groove (37), connecting rods (15) are fixedly connected to the middle of the top end of each electric sliding rail (3), an ultrasonic detector (2) is arranged on one end, far away from each electric sliding rail (3), of each connecting rod (15), and a ray detector (16) is arranged on one end, far away from each electric sliding rail (3), of each connecting rod (15).

8. A method of forming a stack forming assembly of a pack die set according to any one of claims 1 to 7, comprising the steps of:

s1: heating a steel plate material, then placing the steel plate material at the first processing position (9) of the top seat (4), starting a hot press forming mechanism to form a closed lower die, and then performing hot press treatment on the steel plate material at the second processing position (17) of the rotating seat (22) to form an end socket embryonic product through the cooperation of a large hydraulic press and an upper die seat;

s2: after the end socket embryonic products are molded, the main driving mechanism is started to drive the end socket embryonic products which are hot-pressed and molded on the rotating seat (22) to rotate to the first (9) position of the second processing station of the top seat (4), and then the end socket embryonic products are subjected to edging and leveling treatment through the cooperation of the auxiliary driving mechanism and the edging treatment mechanism;

s3: after the end socket embryonic product is subjected to edging and leveling treatment, the main drive mechanism is started again to drive the end socket embryonic product subjected to edging and leveling treatment on the rotating seat (22) to rotate to the position of the first processing station (9) of the top seat (4), and then the end socket embryonic product subjected to edging and leveling is subjected to cooling and acid cleaning treatment through the cooperation of the auxiliary drive mechanism and the cooling and acid cleaning mechanism;

s4: after cooling and pickling the end socket embryonic product, starting a main driving re-mechanism to drive the end socket embryonic product cooled and pickled on a rotating seat (22) to rotate to the position of a first processing station (9) of a top seat (4), performing flaw detection on the cooled and pickled end socket embryonic product through the cooperation of an auxiliary driving mechanism and a flaw detection ejection mechanism, ejecting the cooled and pickled end socket embryonic product after flaw detection without abnormality, and finally transferring the cooled and pickled end socket embryonic product to a designated position through transfer equipment, so that the subsequent treatment operation of the end socket product can be performed.